Novel "restoration of function" mutagenesis strategy to identify amino acids of the delta-opioid receptor involved in ligand binding.

A novel "restoration of function" mutagenesis strategy was developed to identify amino acid sequence combinations necessary to restore the ability to bind delta-selective ligands to an inactive delta/mu receptor chimera in which 10 amino acids of the third extracellular loop of the delta receptor were replaced by the corresponding amino acids from the mu receptor (delta/mu291-300). This chimera binds a nonselective opioid ligand but is devoid of affinity for delta-selective ligands. A library of mutants was generated in which some of the 10 amino acids of the mu sequence of delta/mu291-300 were randomly reverted to the corresponding delta amino acid. Using a ligand binding assay, we screened this library to select mutants with high affinity for delta-selective ligands. Sequence analysis of these revertants revealed that a leucine at position 300, a hydrophobic region (amino acids 295-300), and an arginine at position 291 of the human delta-opioid receptor were present in all revertants. Single and double point mutations were then introduced in delta/mu291-300 to evaluate the contribution of the leucine 300 and arginine 291 residues for the binding of delta-selective ligands. An increased affinity for delta-selective ligands was observed when the tryptophan 300 (mu residue) of delta/mu291-300 was reverted to a leucine (delta residue). Further site-directed mutagenesis experiments suggested that the presence of a tryptophan at position 300 may block the access of delta-selective ligands to their docking site.